CN205279264U - Cabinet air conditioner's wind channel subassembly and cabinet air conditioner - Google Patents

Abstract

The utility model discloses a cabinet air conditioner's wind channel subassembly and cabinet air conditioner. Cabinet air conditioner's wind channel subassembly includes volute component, two limited of going out to separate each other hold the cavity in the volute component, first tubular wine wheel and second tubular wine wheel, first tubular wine wheel and second tubular wine wheel hold respectively two are held the interior just axis of cavity and all extend along upper and lower direction, first motor, first motor is established in the top of first tubular wine wheel and drive first tubular wine wheel rotates, the second motor, the second motor is established in the bottom of second tubular wine wheel and drive the second tubular wine wheel rotates. According to the utility model discloses a cabinet air conditioner's wind channel subassembly, not only first motor and second motor to set up the mode simple, in addition when cabinet air conditioner's wind channel subassembly is used on cabinet air conditioner, still be favorable to improving cabinet air conditioner's air -out effect.

Description

The ducting assembly of cabinet air-conditioner and cabinet air-conditioner

Technical field

The utility model relates to air-conditioning technical field, especially relates to ducting assembly and the cabinet air-conditioner of a kind of cabinet air-conditioner.

Background technology

Pointing out in correlation technique, the motor set-up mode in the ducting assembly of cabinet air-conditioner is complicated.

Practical novel content

The utility model is intended to one of technical problem at least solving existence in prior art. For this reason, the utility model proposes the ducting assembly of a kind of cabinet air-conditioner, the set-up mode of motor is simple.

The utility model also proposes a kind of cabinet air-conditioner, comprises the ducting assembly of above-mentioned cabinet air-conditioner.

The ducting assembly of the cabinet air-conditioner according to the utility model embodiment, comprises spiral case assembly, limits two accommodating chamber being spaced apart from each other in described spiral case assembly; First passes through stream wind wheel and the 2nd passes through stream wind wheel, and described first passes through stream wind wheel and the 2nd passes through stream wind wheel and be contained in described two accommodating chamber respectively and axis extends all along the vertical direction; First motor, described first motor is located at first and passes through the top of stream wind wheel and drive described first to pass through stream wind wheel rotation; 2nd motor, described 2nd motor is located at the 2nd and passes through the bottom of stream wind wheel and drive the described 2nd to pass through stream wind wheel rotation.

The ducting assembly of the cabinet air-conditioner according to the utility model embodiment, pass through the top of stream wind wheel by the first motor being located at first and drive first to pass through the rotation flowing wind wheel, 2nd motor is located at the 2nd pass through the bottom of stream wind wheel and drive the 2nd to pass through stream wind wheel rotation, not only the set-up mode of the first motor and the 2nd motor is simple, and when the ducting assembly of cabinet air-conditioner is applied on cabinet air-conditioner, also help the air-out effect improving cabinet air-conditioner.

According to embodiments more of the present utility model, the ducting assembly of cabinet air-conditioner also comprises: the first motor accommodation section, described first motor accommodation section is located at the top of described spiral case assembly and has the first accommodating room of motor, and wherein said first motor is contained in the described first accommodating indoor of motor; 2nd motor accommodation section, described 2nd motor accommodation section is located at the bottom of described spiral case assembly and has the 2nd accommodating room of motor, and wherein said 2nd motor is contained in the described 2nd accommodating indoor of motor.

Further, described spiral case assembly comprises: front spiral case, described front spiral case has run through its front and back to two ventilation openings; Rear spiral case, limits described two accommodating chamber between the rear surface of described rear spiral case and described front spiral case, described two accommodating chamber are connected with described two ventilation openings respectively; Wherein said first motor accommodation section comprises two the first half holding parts, and described two the first half holding parts lay respectively at the top of described front spiral case and the top of described rear spiral case and limit the described first accommodating room of motor; Described 2nd motor accommodation section comprises two the 2 half holding parts, and described two the 2 half holding parts lay respectively at the bottom of described front spiral case and the bottom of described rear spiral case and limit the described 2nd accommodating room of motor.

Further, described rear spiral case comprise two along the vertical direction extend and cross section be the portion that is recessed into of arc and be connected to two rear connection sections being recessed between portion; Having two cross sections on the rear surface of described front spiral case is the front reentrant of arc, and described two front reentrants are recessed into portion's corresponding matching respectively to limit two described accommodating chamber with described two.

Again further, described rear connection section has at least one card tongue, and connection section before having between described two front reentrants on the rear surface of front spiral case, having at least one card groove on described front connection section, described card tongue coordinates with card groove to be connected described front spiral case and described rear spiral case respectively correspondingly.

Again further, the rear surface of described front spiral case has groove recessed forward between described two front reentrants, and described front connecting portion is on the front side wall of described groove, wherein said rear connection section inserts in described groove and is connected with described front connection section.

Again further, the ducting assembly of cabinet air-conditioner also comprises: insulating foam, and described insulating foam establishes the rear side of spiral case in the rear; Air-duct clapboard, the rear surface card of described air-duct clapboard and described rear spiral case links and connects and limit enclosed space, and described insulating foam is located in described enclosed space.

Again further, the rear surface of described rear connection section is formed with insulation hopper, being contained at least partially in described insulation hopper of described insulating foam.

Again further, described insulation hopper is become wide shape from front to back gradually.

Cabinet air-conditioner according to the utility model embodiment, comprises the ducting assembly of above-mentioned cabinet air-conditioner.

Cabinet air-conditioner according to the utility model embodiment, by arranging the ducting assembly of above-mentioned cabinet air-conditioner, not only the set-up mode of the first motor and the 2nd motor is simple, and is conducive to improving the air-out effect of cabinet air-conditioner.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage from accompanying drawing below combining to the description of embodiment becoming obviously and it should be readily understood that wherein:

Fig. 1 is the structural representation of the ducting assembly according to the utility model embodiment;

Fig. 2 is the structural representation of the ducting assembly other direction shown in Fig. 1;

Fig. 3 is the explosive view of the ducting assembly shown in Fig. 1-Fig. 2;

Fig. 4 is the front view of the ducting assembly shown in Fig. 1-Fig. 3;

Fig. 5 is the A-A portion sectional view of the ducting assembly shown in Fig. 4;

Fig. 6 is the B-B portion sectional view of the ducting assembly shown in Fig. 4;

Fig. 7 is the structural representation of the front spiral case according to the utility model embodiment;

Fig. 8 is the structural representation of the other direction of the front spiral case shown in Fig. 7;

Fig. 9 is the structural representation of the rear spiral case according to the utility model embodiment;

Figure 10 is according to the structural representation extending plate before the utility model embodiment;

Figure 11 is the structural representation of two according to the utility model embodiment snail tongue assembly;

Figure 12 is that in Figure 11, C portion circle shows structure for amplifying schematic diagram;

Figure 13 is that in Figure 11, D portion circle shows structure for amplifying schematic diagram;

Figure 14 is according to the structural representation extending assembly on plate before the utility model embodiment.

Reference numeral:

The ducting assembly 100 of cabinet air-conditioner;

Spiral case assembly 1; Front spiral case 11; Front reentrant 111; Front connection section 112; Card groove 1121; Engagement part 113; Groove 114; Motor slot 115; Rear spiral case 12; It is recessed into portion 121; Rear connection section 122; Card tongue 1221;

Accommodating chamber 2;

Front extension plate 3; Locating slot 31; Assembly 32 on front extension plate; Assembly 33 under front extension plate; Positioning convex 321 (331); Extension portion groove 34; Card convex 35; Vertical slot 36;

Snail tongue assembly 4; Stator 41; Location hook 411; Gap 412; Connect section 413; Snail tongue body 42; Chute 421; Screens groove 422; Connecting rod 43; Stator drive-motor 44; Crank 45;

Insulating foam 5; Air-duct clapboard 6;

First passes through stream wind wheel 7; First motor accommodation section 71; The first half holding part 71a (71b); First motor 711;

2nd passes through stream wind wheel 8; 2nd motor accommodation section 81; 2 half holding part 81a (81b); 2nd motor 811.

Embodiment

Being described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish. It is exemplary below by the embodiment being described with reference to the drawings, only for explaining the utility model, and can not be interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end " " interior ", the orientation of the instruction such as " outward " or position are closed is based on orientation shown in the drawings or position relation, it is only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device referred to or element must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model. In description of the present utility model, unless otherwise explanation, the implication of " multiple " is two or more.

In description of the present utility model, it is necessary to explanation, unless otherwise clearly defined and limited, term " is connected ", " connection " should be interpreted broadly, such as, it is possible to be fixedly connected with, it is also possible to be removably connect, or connect integratedly; Can be mechanically connected, it is also possible to be electrical connection; Can be directly be connected, it is also possible to be indirectly connected by intermediary, it is possible to be the connection of two element internals. For the ordinary skill in the art, it is possible to particular case understands the concrete implication of above-mentioned term in the utility model.

Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present utility model. Of the present utility model open in order to simplify, hereinafter parts and setting to specific examples are described. Certainly, they are only example, and object is not restriction the utility model. In addition, fisrt feature described below second feature it " on " structure can comprise the embodiment that the first and second features are formed as directly contact, can also comprising the embodiment that other feature is formed between the first and second features, such first and second features may not be direct contact.

Describe the ducting assembly 100 of the cabinet air-conditioner according to the utility model embodiment below with reference to Fig. 1-Figure 14, ducting assembly 100 can be applied in cabinet air-conditioner, thus realizes the function of the adjusting indoor environment temperature of cabinet air-conditioner.

As shown in figs 1 to 6, the ducting assembly 100 of the cabinet air-conditioner according to the utility model embodiment, it is possible to comprise spiral case assembly 1, two pass through stream wind wheel (namely first pass through stream wind wheel 7 and the 2nd pass through flow wind wheel 8), front extension plate 3, two snail tongue assembly 4, first motors 711 and the 2nd motor 811.

Limit two accommodating chamber 2, the first being spaced apart from each other in spiral case assembly 1 to pass through stream wind wheel 7 and the 2nd and pass through stream wind wheel 8 and be contained in two accommodating chamber 2 respectively and axis extends all along the vertical direction. Specifically, it is placed with first in one of them accommodating chamber 2 (accommodating chamber 2 on the such as left side shown in Fig. 5) and passes through stream wind wheel 7, it is placed with the 2nd in another accommodating chamber 2 (accommodating chamber 2 on such as the right shown in Fig. 5) and passes through stream wind wheel 8, thus it is convenient under the wind that cabinet air-conditioner sends passes through, first, the driving effect that stream wind wheel 7 and the 2nd passes through stream wind wheel 8, it is discharged in indoor environment for adjustment room temp, and then builds comfortable indoor environment to user.

First motor 711 is located at the top that first passes through stream wind wheel 7, and the 2nd motor 811 is located at the bottom that the 2nd passes through stream wind wheel 8, thus realizes the first motor 711 and the simple setting of the 2nd motor 811.

First motor 711 can drive first to pass through stream wind wheel 7 and rotate, and the 2nd motor 811 can drive the 2nd to pass through stream wind wheel 8 and rotate. Thus, drive first to pass through stream wind wheel 7 and the 2nd respectively by making the first motor 711 and the 2nd motor 811 and pass through the rotation flowing wind wheel 8, when the ducting assembly 100 of cabinet air-conditioner is applied on cabinet air-conditioner, can effectively improve the air-out effect of cabinet air-conditioner.

The ducting assembly 100 of the cabinet air-conditioner according to the utility model embodiment, pass through the top of stream wind wheel 7 by the first motor 711 being located at first and drive first to pass through the rotation flowing wind wheel 7,2nd motor 811 is located at the 2nd pass through stream wind wheel 8 bottom and drive the 2nd pass through stream wind wheel 8 rotate, not only the set-up mode of the first motor 711 and the 2nd motor 811 is simple, and when the ducting assembly 100 of cabinet air-conditioner is applied on cabinet air-conditioner, also help the air-out effect improving cabinet air-conditioner.

According to embodiments more of the present utility model, the ducting assembly 100 of cabinet air-conditioner also comprises the first motor accommodation section 71 and the 2nd motor accommodation section 81. Wherein, first motor accommodation section 71 is located at the top of spiral case assembly 1 and has the first accommodating room of motor, and first motor 711 be contained in the first accommodating indoor of motor, 2nd motor accommodation section 81 is located at the bottom of spiral case assembly 1 and has the 2nd accommodating room of motor, and wherein the 2nd motor 811 is contained in the 2nd accommodating indoor of motor. Thus, it is possible to be convenient to the first motor 711 and the placement of the 2nd motor 811.

Further, spiral case assembly 1 comprises front spiral case 11 and rear spiral case 12. Front spiral case 11 has run through its front and back to two ventilation openings, thus be convenient to the wind that air-conditioning sends and blow to indoor environment through two ventilation openings.

Limit two accommodating chamber, 2, two accommodating chamber 2 between rear spiral case 12 and the rear surface of front spiral case 11 to be connected with two ventilation openings respectively. specifically, one of them accommodating chamber 2 (accommodating chamber 2 on the such as left side shown in Fig. 5) is connected with one of them ventilation opening, and be placed with in one of them accommodating chamber 2 first pass through stream wind wheel 7, another accommodating chamber 2 (accommodating chamber 2 on such as the right shown in Fig. 5) is connected with another ventilation opening, and be placed with in another accommodating chamber 2 the 2nd pass through stream wind wheel 8, thus it is convenient under the wind that air-conditioning sends passes through, first, the driving effect that stream wind wheel 7 and the 2nd passes through stream wind wheel 8, respectively by two ventilation openings, then discharge from the air port (not shown) that goes out of cabinet air-conditioner.

Specifically, each accommodating chamber 2 is all formed as cylindrical shape substantially, thus is convenient to first and passes through the corresponding placement that stream wind wheel 7 and the 2nd passes through stream wind wheel 8.

Front extension plate 3 is located at the front side of front spiral case 11 and is separated by the air of two ventilation opening blowouts, by extending plate 3 before the front side of front spiral case 11 is arranged, and extend plate 3 before making and the air that two ventilation openings blow out is separated, thus when the ducting assembly 100 of cabinet air-conditioner is applied in cabinet air-conditioner, under the wind that cabinet air-conditioner is sent passes through, first, the effect that stream wind wheel 7 and the 2nd passes through stream wind wheel 8, through two ventilation openings and blow to two different directions, the wind through two ventilation openings is avoided to produce to blow each other interference, such that it is able to improve the air-out effect of cabinet air-conditioner.

Two snail tongue assemblies 4 extend the both sides of plate 3 before being located at respectively, limit front air channel between each snail tongue assembly 4 and front spiral case 11 and front extension plate 3. Thus, when the ducting assembly 100 of cabinet air-conditioner is applied in cabinet air-conditioner, the wind that cabinet air-conditioner is sent after two ventilation openings, and blows to different directions through two front air channels under passing through, first, the effect that stream wind wheel 7 and the 2nd passes through stream wind wheel 8 respectively.

Each snail tongue assembly 4 is provided with the multiple stators 41 being spaced apart from each other in the vertical direction. The wind of the past air channel blowout can be played guide functions by multiple stator 41, thus regulates the air supply direction of cabinet air-conditioner.

As illustrated in figs. 8-9, the first motor accommodation section 71 comprises two the first half holding parts 71a, 71b, and two the first half holding parts 71a, 71b lay respectively at the top of front spiral case 11 and the top of rear spiral case 12 and limit the first accommodating room of motor. That is, the top of front spiral case 11 is formed with one of them the first half holding part 71a, the top of rear spiral case 12 is formed with another the first half holding part 71b, by the cooperation of two the first half holding parts 71a, 71b, thus form a first accommodating room of motor, so that the placement of the first motor 711.

2nd motor accommodation section 81 comprises two the 2 half holding parts 81a, 81b, and two the 2 half holding parts 81a, 81b lay respectively at the bottom of front spiral case 11 and the bottom of rear spiral case 12 and limit the 2nd accommodating room of motor. That is, the bottom of front spiral case 11 is formed with one of them the 2 half holding part 81a, the bottom of rear spiral case 12 is formed with another the 2 half holding part 81b, by the cooperation of two the 2 half holding parts 81a, 81b, thus form a 2nd accommodating room of motor, so that the placement of the 2nd motor 811.

Further, as shown in Figure 5, rear spiral case 12 comprises two, and extension and cross section are the portion that is recessed into 121 of arc and are connected to two rear connection sections 122 being recessed between portion 121 along the vertical direction, the rear surface of front spiral case 11 has front reentrant 111, two front reentrants 111 that two cross sections are arc and is recessed into portion 121 corresponding matching respectively with two to limit two accommodating chamber 2. specifically, one of them is recessed into portion 121 (in such as Fig. 5, the portion that is recessed into 121 on the left side in horizontal direction) and one of them front reentrant 111 (in such as Fig. 5, the front reentrant 111 on the left side in horizontal direction) jointly limit one of them accommodating chamber 2 (in such as Fig. 5, the accommodating chamber 2 on the left side in horizontal direction) pass through stream wind wheel 7 for placement first, another is recessed into portion 121 (in such as Fig. 5, the portion that is recessed into 121 on the right in horizontal direction) and another front reentrant 111 (in such as Fig. 5, the front reentrant 111 on the right in horizontal direction) jointly limit another accommodating chamber 2 (in such as Fig. 5, the accommodating chamber 2 on the right in horizontal direction) pass through stream wind wheel 8 for placement the 2nd, structure is simple, the convenient assembling producing workman.

Again further, as shown in Figure 8 and Figure 9, rear connection section 122 has at least one card tongue 1221, and connection section 112 before having between two front reentrants 111 on the rear surface of front spiral case 11, having at least one card groove 1121 on front connection section 112, card tongue 1221 coordinates to be connected front spiral case 11 and rear spiral case 12 with card groove 1121 respectively correspondingly. Thus, by the cooperation of card tongue 1221 and card groove 1121 to be connected with rear connection section 122 by front connection section 112, thus realize the connection between front spiral case 11 and rear spiral case 12.

Again further, as shown in Figure 5 and Figure 8, having groove 114 recessed forward on the rear surface of front spiral case 11 between two front reentrants 111, and front connection section 112 is positioned on the front side wall of groove 114, after wherein, connection section 122 inserts in groove 114 and is connected with front connection section 112. Specifically, front connection section 112 is positioned on the front side wall of groove 114, rear connection section 122 inserts in groove 114, and coordinating by the card tongue 1221 being arranged on rear connection section 122 and the card groove 1121 being formed on front connection section 112, thus realize rear connection between connection section 122 and front connection section 112, and then the connection realized between front spiral case 11 and rear spiral case 12.

Again further, as shown in Figure 3 and Figure 5, the front surface of front spiral case 11 is formed for holding the front at least part of extension portion groove 34 extending plate 3 corresponding to the position of front connection section 112, that is, in the extension portion that stretches at least partly groove 34 of front extension plate 3, thus front extension plate 3 is fixed on front spiral case 11. Specifically, as shown in Figure 10, the rear end of front extension plate 3 has card convex 35, and card convex 35 is contained in extension portion groove 34, thus extends the connection between plate 3 and front spiral case 11 before realizing. Can selection of land, extension portion groove 34 is formed as becoming gradually from back to front wide shape, thus extends at least part of of plate 3 before being convenient to hold.

Card convex 35 is formed as the shape narrowed gradually from front to back, and such as card convex 35 is formed as trapezium-shaped substantially, and the sectional area of card convex 35 reduces gradually on the direction near extension portion groove 34, thus, can be convenient to card convex 35 and be contained in extension portion groove 34.

In concrete examples more of the present utility model, as shown in Figure 3 and Figure 5, the ducting assembly 100 of cabinet air-conditioner also comprises insulating foam 5 and air-duct clapboard 6. Wherein, insulating foam 5 is located at the rear side of rear spiral case 12. Specifically, the rear surface card of air-duct clapboard 6 and rear spiral case 12 links and connects and limit enclosed space, insulating foam 5 is located in enclosed space, thus when the ducting assembly 100 of cabinet air-conditioner is applied in cabinet air-conditioner, insulating foam 5 can reduce calorific loss when cabinet air-conditioner is blown to a certain extent, and then the wind that cabinet air-conditioner is sent can be more flow to indoor environment, to regulate room temp.

Further, the rear surface of rear connection section 122 is formed with insulation hopper, being contained at least partially in insulation hopper of insulating foam 5, thus plays the effect that insulating foam 5 is spacing to a certain extent. Can selection of land, insulation hopper is become wide shape from front to back gradually, thus is convenient to hold insulating foam 5 at least partially.

In some embodiments that the utility model is further, as shown in Fig. 3 and Fig. 5 and Figure 11-Figure 13, each snail tongue assembly 4 includes snail tongue body 42 and connecting rod 43. Wherein, snail tongue body 42 extends along the vertical direction, snail tongue body 42 is located on the sidewall of front spiral case 11, and snail tongue body 42 has the chute 421 vertically extended, the side towards front extension plate 3 that connecting rod 43 can be located at snail tongue body 42 up or down is on the surface, separating between connecting rod 43 and chute 421, wherein one end of stator 41 is fixed on connecting rod 43, and the other end is through chute 421 and removable relative to chute 421. Thus, not only structure is simple, and when the ducting assembly 100 of cabinet air-conditioner is applied in cabinet air-conditioner, by one end of stator 41 is fixed on connecting rod 43, and the other end through chute 421 and can move relative to chute 421, it may be achieved the wind sent from cabinet air-conditioner is played guide functions by stator 41.

Can selection of land, chute 421 comprises be spaced apart from each other along the vertical direction multiple. Such as, chute 421 comprise be spaced apart from each other along the vertical direction eight, nine, ten, more or fewer.

Further, as shown in figure 12, the other end of stator 41 has location hook 411, location hook 411 hook part can through chute 421 and the side away from front extension plate 3 being only against snail tongue body 42 on the surface. Thus, by arranging location hook 411 on the other end of stator 41, and make hook part that location hooks 411 through chute 421 and the side away from front extension plate 3 being only against snail tongue body 42 on the surface, thus be connected to removable for stator 41 on chute 421. Can selection of land, the height of each chute 421 is greater than the height that location hooks 411, thus is convenient to location and hooks 411 through chute 421.

Can selection of land, as shown in figure 13, stator 41 is formed as substantially triangular shaped, and the one end on the long limit of stator 41 is connected to connecting rod 43, and the other end by connecting, section 413 is connected to location hook 411, structure is simple. Again further, as shown in figure 13, on the long limit of stator 41, contiguous the other end end is formed with gap 412, and its middle connecting segment 413 is connected with the other end end, so that the other end of stator 41 is by connecting, section 413 and location hook 411 are connected with chute 421.

Can selection of land, multiple stator 41 is evenly spaced apart and arranged on connecting rod 43 in the vertical direction, thus, when snail tongue assembly 4 is applied in cabinet air-conditioner with ducting assembly 100, the wind that cabinet air-conditioner can be sent by multiple stators 41 1 aspect separated between evenly plays guide functions, regulate the air supply direction of cabinet air-conditioner, the wind homogenizing also cabinet air-conditioner can sent on the other hand, it is to increase air-supply effect.

As shown in figures 7 and 12, according in some further examples of the utility model, the side away from front extension plate 3 of snail tongue body 42 is provided with screens groove 422 on the surface, the sidewall of front spiral case 11 is provided with engagement part 113, and screens groove 422 coordinates with engagement part 113 to snap on the sidewall of front spiral case 11 snail tongue body 42. Thus, by the cooperation of screens groove 422 and engagement part 113, thus realize the connection of snail tongue assembly 4 and front spiral case 11. Can selection of land, screens groove 422 comprises three, and thus, engagement part 113 also comprises three, thus realizes the corresponding matching between screens groove 422 and engagement part 113, and then snail tongue assembly 4 is reliably fastened on the sidewall of front spiral case 11. Certainly, the utility model is not limited to this, and screens groove 422 can also comprise more.

Specifically, the front side wall of front spiral case 11 is protruded in engagement part 113, and is formed as substantially rectangular-shaped, and screens groove 422 is the square hole coordinated with engagement part 113.

Further, as shown in figure 11, each snail tongue assembly 4 also comprises stator drive-motor 44, and stator drive-motor 44 drive link 43 moves up and down. Thus, by moving up and down of stator drive-motor 44 drive link 43, thus drive the movement of stator 41 so that the wind sent from cabinet air-conditioner is played guide functions by stator 41, and then change the air supply direction of cabinet air-conditioner.

Specifically, as shown in Figure 7, the sidewall of front spiral case 11 having recessed motor slot 115, wherein stator drive-motor 44 is contained in motor slot 115. Specifically, when snail tongue assembly 4 is connected with front spiral case 11, stator drive-motor 44 is contained in motor slot 115, and drive link 43 move up and down the movement driving stator 41.

Further, stator drive-motor 44 is located on snail tongue body 42 away from another side of connecting rod 43 on the surface, and that is, stator drive-motor 44 is being located on snail tongue body 42 away from while on another surface, side of connecting rod 43, being also contained in motor slot 115. The motor shaft of stator drive-motor 44 is through snail tongue body 42 and is connected with crank 45, and crank 45 drivening rod 43 under the driving of stator drive-motor 44 moves up and down, thus is convenient to moving up and down of stator drive-motor 44 drive link 43. Can selection of land, crank 45 is connected to the middle portion in the vertical direction of connecting rod 43. Thus, it is possible to make connecting rod 43 uniform force, so that the moving up and down of stator drive-motor 44 drive link 43.

Can selection of land, the cross section of front extension plate 3 is formed as becoming gradually from back to front wide shape, and not only structure is simple, and is convenient to install. Certainly, the utility model is not limited to this, and the cross section of front extension plate 3 can also be formed as other shape.

In the utility model further some embodiments, the ducting assembly 100 of cabinet air-conditioner extends on plate assembly 33 under assembly 32 and front extension plate before also comprising. Wherein, on front extension plate, assembly 32 extends the upper end of plate 3 before being located at and is connected with front spiral case 11, under front extension plate, assembly 33 extends the lower end of plate 3 before being located at and is connected with front spiral case 11, thus is connected with front spiral case 11 by front extension plate 3 with assembly 33 under front extension plate by assembly 32 on front extension plate.

Again further, the top and bottom of front extension plate 3 have at least one positioning convex (not shown go out) respectively, on front extension plate, under the lower end of assembly 32 and front extension plate, the upper end of assembly 33 all has at least one locating slot coordinated with positioning convex (not shown go out), thus extend before realizing on plate between assembly 32 and front extension plate 3 and being located by connecting between assembly 33 and front extension plate 3 under front extension plate, and by the connection of assembly 33 under the connection of assembly on front extension plate 32 and front spiral case 11 and front extension plate with front spiral case 11, the final connection realizing front extension plate 3 and front spiral case 11.

Certainly, the utility model is not limited to this, as shown in figs.10 and 14, the top and bottom of front extension plate 3 can be respectively arranged with at least one locating slot 31, and on front extension plate, under the lower end of assembly 32 and front extension plate, the upper end of assembly 33 is equipped with at least one positioning convex 321 (331) coordinated with locating slot 31. specifically, as shown in Figure 10, the upper end of front extension plate 3 is provided with at least one locating slot 31 (as shown in Figure 10), on front extension plate, the lower end of assembly 32 is provided with the positioning convex 321 (as shown in figure 14) that at least one coordinates with the locating slot 31 of front extension plate 3 upper end, the lower end of front extension plate 3 is provided with at least one locating slot 31, under front extension plate, the upper end of assembly 33 is provided with the positioning convex 331 that at least one coordinates with the locating slot 31 of the lower end of front extension plate 3, thus extend before realizing on plate between assembly 32 and front extension plate 3 and being located by connecting between assembly 33 and front extension plate 3 under front extension plate.

Specifically, the locating slot 31 extending plate 3 upper end before being positioned at is recessed into the front upper surface extending plate 3 downwards, and the locating slot 31 extending plate 3 times ends before being positioned at is to the lower surface being recessed on front extension plate 3. And the locating slot 31 of front extension plate 3 top and bottom is square configuration substantially.

The positioning convex 321 extending the lower end of assembly 32 on plate before being positioned at protrudes the front lower surface extending assembly 32 on plate downwards, extend before being positioned at the positioning convex 331 of the upper end of assembly 33 under plate protruding upward before extend the upper surface of assembly 33 under plate, and positioning convex 321 (331) is formed as substantially rectangular-shaped, thus it is convenient to coordinate with locating slot 31.

As shown in Figure 10, the front side of front extension plate 3 is also formed to the vertical slot 36 being recessed into, thus other structure extending the cabinet air-conditioner on front side of plate 3 before extending plate 3 and be positioned at before being convenient to matches.

Can selection of land, buckled by card between rear spiral case 12 with front spiral case 11 or screw is connected. Thus, mode of connection between rear spiral case 12 and front spiral case 11 is that card links connect in connecting wherein a kind of with screw. Certainly, the utility model is not limited to this, can also link at card on the basis connect and be connected by screw further between rear spiral case 12 and front spiral case 11.

Below with reference to Fig. 1-Figure 14, the structure of the ducting assembly 100 of the cabinet air-conditioner of the utility model specific embodiment is described in detail.

As shown in figs 1 to 6, in the present embodiment, the ducting assembly 100 of cabinet air-conditioner comprises spiral case assembly 1, first and passes through stream wind wheel 7, the 2nd and pass through stream wind wheel 8, first motor accommodation section 71, the 2nd motor accommodation section 81, front extension plate 3, snail tongue assembly 4, insulating foam 5, air-duct clapboard 6, first motor 711 and the 2nd motor 811. Wherein, two accommodating chamber 2 being spaced apart from each other are limited in spiral case assembly 1. Specifically, spiral case assembly 1 comprises front spiral case 11 and rear spiral case 12, front spiral case 11 has run through its front and back to two ventilation openings, limit two accommodating chamber, 2, two accommodating chamber 2 between rear spiral case 12 and the rear surface of front spiral case 11 and be connected with two ventilation openings respectively. Specifically, rear spiral case 12 comprises two, and extension and cross section are the portion that is recessed into 121 of arc and are connected to two rear connection sections 122 being recessed between portion 121 along the vertical direction, the rear surface of front spiral case 11 has front reentrant 111, two front reentrants 111 that two cross sections are arc and is recessed into portion 121 corresponding matching respectively with two to limit two accommodating chamber 2.

Rear connection section 122 has at least one card tongue 1221, and connection section 112 before having between two front reentrants 111 on the rear surface of front spiral case 11, having at least one card groove 1121 on front connection section 112, card tongue 1221 coordinates respectively correspondingly with card groove 1121. Specifically, the rear surface of front spiral case 11 has groove 114 recessed forward between two front reentrants 111, and front connection section 112 is positioned on the front side wall of groove 114, after wherein, connection section 122 inserts in groove 114 and coordinating by card tongue 1221 and card groove 1121, thus realize rear connection between connection section 122 and front connection section 112, and then the connection realized between front spiral case 11 and rear spiral case 12. Linked by card further between rear spiral case 12 and front spiral case 11 and connect.

First passes through stream wind wheel 7 and the 2nd passes through stream wind wheel 8 and is contained in two accommodating chamber 2 respectively and axis extends all along the vertical direction. First motor 711 is located at first and passes through the stream top of wind wheel 7 and the first motor 711 can drive first to pass through stream wind wheel 7 to rotate, and the 2nd motor 811 is located at the 2nd and passes through the bottom of stream wind wheel 8 and the 2nd motor 811 can drive the 2nd to pass through stream wind wheel 8 to rotate.

First motor accommodation section 71 is located at the top of spiral case assembly 1 and has the first accommodating room of motor, and first motor 711 be contained in the first accommodating indoor of motor, 2nd motor accommodation section 81 is located at the bottom of spiral case assembly 1 and has the 2nd accommodating room of motor, and wherein the 2nd motor 811 is contained in the 2nd accommodating indoor of motor. Thus, it is possible to be convenient to the first motor 711 and the placement of the 2nd motor 811. Specifically, first motor accommodation section 71 comprises two the first half holding parts 71a, 71b, namely before, the top of spiral case 11 is formed with one of them the first half holding part 71a, the top of rear spiral case 12 is formed with another the first half holding part 71b, by the cooperation of two the first half holding parts 71a, 71b, thus form a first accommodating room of motor, so that the placement of the first motor 711.

2nd motor accommodation section 81 comprises two the 2 half holding parts 81a, 81b, namely before, the bottom of spiral case 11 is formed with one of them the 2 half holding part 81a, the bottom of rear spiral case 12 is formed with another the 2 half holding part 81b, by the cooperation of two the 2 half holding parts 81a, 81b, thus form a 2nd accommodating room of motor, so that the placement of the 2nd motor 811.

Insulating foam 5 is located at the rear side of rear spiral case 12. Specifically, the rear surface card of air-duct clapboard 6 and rear spiral case 12 links and connects and limit enclosed space, insulating foam 5 is located in enclosed space, thus when the ducting assembly 100 of cabinet air-conditioner is applied in cabinet air-conditioner, insulating foam 5 can block calorific loss when cabinet air-conditioner is blown to a certain extent, and then the wind that cabinet air-conditioner is sent can be more flow to indoor environment, to regulate room temp. The rear surface of rear connection section 122 is formed with insulation hopper, being contained at least partially in insulation hopper of insulating foam 5, thus plays the effect that insulating foam 5 is spacing to a certain extent. Insulation hopper is become wide shape from front to back gradually, thus is convenient to hold insulating foam 5 at least partially.

Cabinet air-conditioner according to the utility model embodiment, comprises the ducting assembly 100 of above-mentioned cabinet air-conditioner.

Cabinet air-conditioner according to the utility model embodiment, by arranging the ducting assembly 100 of above-mentioned cabinet air-conditioner, not only the set-up mode of the first motor 711 and the 2nd motor 811 is simple, and is conducive to improving the air-out effect of cabinet air-conditioner.

In the description of this specification sheets, the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means concrete feature, structure, material or the feature in conjunction with this embodiment or example describe and is contained at least one embodiment of the present utility model or example. In this manual, the schematic representation of above-mentioned term is not necessarily referred to identical embodiment or example. And, the concrete feature of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although it has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that: these embodiments can be carried out multiple change, amendment, replacement and modification when not departing from principle of the present utility model and objective, scope of the present utility model by claim and etc. jljl limit.

Claims (10)

1. the ducting assembly of a cabinet air-conditioner, it is characterised in that, comprising:

Spiral case assembly, limits two accommodating chamber being spaced apart from each other in described spiral case assembly;

First passes through stream wind wheel and the 2nd passes through stream wind wheel, and described first passes through stream wind wheel and the described 2nd passes through stream wind wheel and be contained in described two accommodating chamber respectively and axis extends all along the vertical direction;

First motor, described first motor is located at described first and passes through the top of stream wind wheel and drive described first to pass through stream wind wheel rotation;

2nd motor, described 2nd motor is located at the described 2nd and passes through the bottom of stream wind wheel and drive the described 2nd to pass through stream wind wheel rotation.

2. the ducting assembly of cabinet air-conditioner according to claim 1, it is characterised in that, also comprise:

First motor accommodation section, described first motor accommodation section is located at the top of described spiral case assembly and has the first accommodating room of motor, and wherein said first motor is contained in the described first accommodating indoor of motor;

2nd motor accommodation section, described 2nd motor accommodation section is located at the bottom of described spiral case assembly and has the 2nd accommodating room of motor, and wherein said 2nd motor is contained in the described 2nd accommodating indoor of motor.

3. the ducting assembly of cabinet air-conditioner according to claim 2, it is characterised in that, described spiral case assembly comprises:

Front spiral case, described front spiral case has run through its front and back to two ventilation openings;

Rear spiral case, limits described two accommodating chamber between the rear surface of described rear spiral case and described front spiral case, described two accommodating chamber are connected with described two ventilation openings respectively;

Wherein said first motor accommodation section comprises two the first half holding parts, and described two the first half holding parts lay respectively at the top of described front spiral case and the top of described rear spiral case and limit the described first accommodating room of motor;

Described 2nd motor accommodation section comprises two the 2 half holding parts, and described two the 2 half holding parts lay respectively at the bottom of described front spiral case and the bottom of described rear spiral case and limit the described 2nd accommodating room of motor.

4. the ducting assembly of cabinet air-conditioner according to claim 3, it is characterised in that, described rear spiral case comprises two, and extension and cross section are the portion that is recessed into of arc and are connected to described two rear connection sections being recessed between portion along the vertical direction;

Having two cross sections on the rear surface of described front spiral case is the front reentrant of arc, and described two front reentrants are recessed into portion's corresponding matching respectively to limit two described accommodating chamber with described two.

5. the ducting assembly of cabinet air-conditioner according to claim 4, it is characterized in that, described rear connection section has at least one card tongue, and connection section before having between described two front reentrants on the rear surface of described front spiral case, having at least one card groove on described front connection section, described card tongue coordinates with described card groove to be connected described front spiral case and described rear spiral case respectively correspondingly.

6. the ducting assembly of cabinet air-conditioner according to claim 5, it is characterized in that, the rear surface of described front spiral case has groove recessed forward between described two front reentrants, and described front connecting portion is on the front side wall of described groove, wherein said rear connection section inserts in described groove and is connected with described front connection section.

7. the ducting assembly of cabinet air-conditioner according to claim 4, it is characterised in that, also comprise:

Insulating foam, described insulating foam establishes the rear side of spiral case in the rear;

Air-duct clapboard, the rear surface card of described air-duct clapboard and described rear spiral case links and connects and limit enclosed space, and described insulating foam is located in described enclosed space.

8. the ducting assembly of cabinet air-conditioner according to claim 7, it is characterised in that, the rear surface of described rear connection section is formed with insulation hopper, being contained at least partially in described insulation hopper of described insulating foam.

9. the ducting assembly of cabinet air-conditioner according to claim 8, it is characterised in that, described insulation hopper is become wide shape from front to back gradually.

10. a cabinet air-conditioner, it is characterised in that, comprise the ducting assembly of the cabinet air-conditioner according to any one of claim 1-9.